Method and system for idle mode signaling reduction

ABSTRACT

A method and a system for idle mode signaling reduction (ISR) are provided. The method includes: obtaining ISR activation information of a source network, and setting an ISR status of an user equipment (UE) in a target network according to the obtained ISR activation information of the source network. Thus, the ISR status of the UE can be processed when the UE is handed over between networks.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of International Application No.PCT/CN2008/073865, filed on Dec. 30, 2008, which claims priority toChinese Patent Application No. 200810008444.4, filed on Jan. 30, 2008and Chinese Patent Application No. 200810087515.4, filed on Mar. 19,2008, all of which are hereby incorporated by reference in theirentireties.

FIELD OF THE INVENTION

The present invention relates to the field of communication technology,and more particularly to a method and a system for idle mode signalingreduction (ISR).

BACKGROUND OF THE INVENTION

In areas where different Third Generation Partnership Project (3GPP)access networks overlap or are adjacent to one another, when asubscriber changes an access system, for example, changes from aGSM/EDGE Radio Access Network/UMTS Terrestrial Radio Access Network(GERAN/UTRAN) to an Evolved UMTS Terrestrial Radio Access Network(EUTRAN), or from the EUTRAN to the GERAN/UTRAN, the subscriber needs toinitiate a location update process, which brings certain load to thecore network and air interfaces. In order to avoid such signaling loadand to optimize the mobility management mechanism among different 3GPPaccess systems, the 3GPP has proposed an ISR mechanism in an idle mode,which aims at reducing the signaling load caused by the mobilitymanagement process of a user equipment (UE) among different accessnetworks. The UE is registered with a serving general packet radioservice support node (SGSN) and a mobility management entity (MME) insequence, and then the ISR is enabled. Thus, as long as the UE does notleave the Routing Area (RA) and Tracking Area (TA) where it is locatedat the time of registering with the SGSN and MME, the UE does not needto initiate the location update process. Thus, even though a mobilesubscriber is frequently handed over between a 2G/3G cell and a LongTerm Evolution (LTE) cell, no signaling load will be generated. Inaddition, even if the RA or TA where the subscriber is located ischanged, as long as the SGSN and MME where the subscriber is registeredare not changed, the TA or RA update process initiated by the UE doesnot need to re-register the SGSN or MME on a Home Subscriber Server(HSS). Furthermore, in order to ensure that the MT (Mobile Terminated)service of the subscriber is not influenced, a Serving Gateway (SGW)needs to mark subscribers with the ISR enabled. When receiving downlinkdata or signaling of such a subscriber, the SGW notifies both the SGSNand the MME to initiate paging at the same time, thereby ensuring thatthe subscriber can be paged.

In the implementation of the present invention, the inventors found atleast the following problem in the prior art, that is, when the UE ishanded over between networks, the ISR status of the UE cannot beprocessed.

SUMMARY OF THE INVENTION

Various embodiments of the present invention are directed to a methodand a system for processing ISR in a handover process, which areapplicable to process an ISR status of a UE when the UE is handed overbetween networks.

To achieve the above objective, the present invention provides thefollowing technical solutions.

One embodiment of the present invention provides a method for ISR. Themethod includes the following steps.

ISR activation information of a source network is obtained.

An ISR status of a UE in a target network is set according to theobtained ISR activation information of the source network.

One embodiment of the present invention further provides a method forISR. The method includes the following steps.

If a mobility management network element of a target network has an ISRcapability, it is determined whether to activate an ISR of a UE in thetarget network according to an ISR capability or an ISR activationstatus of a source network, and if the source network supports the ISRor has activated the ISR, the ISR of the UE in the target network isactivated.

One embodiment of the present invention further provides a system forISR. The system includes a mobility management network element of atarget network and a serving gateway (SGW) of the target network.

The mobility management network element of the target network isconfigured to obtain ISR activation information of a source network, andset an ISR status of a UE in the target network according to theobtained ISR activation information of the source network.

The SGW of the target network is configured to record the ISR status ofthe UE in the target network set by the mobility management networkelement of the target network.

One embodiment of the present invention provides a mobility managementnetwork element, which includes an obtaining unit and a setting unit.

The obtaining unit is configured to obtain ISR activation information ofa source network.

The setting unit is configured to set an ISR status of a UE in a targetnetwork according to the ISR activation information of the sourcenetwork obtained by the obtaining unit.

One embodiment of the present invention provides a mobility managementnetwork element, which includes a determining unit and an activatingunit.

The determining unit is configured to determine whether to activate anISR of a UE in a target network according to an ISR capability or an ISRactivation status of a source network when the mobility managementnetwork element of the target network has the ISR capability.

The activating unit is configured to activate the ISR of the UE in thetarget network when the determining unit determines that the sourcenetwork has the ISR capability or has activated the ISR.

Through the method and the system for ISR in the embodiments of thepresent invention, the ISR status of the UE in the target network can beset according to the ISR activation information of the source network orthe ISR capability of the mobility management network element of thetarget network. Thus, when the UE is handed over between networks, theISR status of the UE can be processed.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A-1B is a flow chart of a method for ISR according to a firstembodiment of the present invention;

FIG. 2A-2B is a flow chart of a method for ISR according to a secondembodiment of the present invention;

FIG. 3A-3B is a flow chart of a method for ISR according to a thirdembodiment of the present invention;

FIG. 4A-4B is a flow chart of a method for ISR according to a fourthembodiment of the present invention;

FIG. 5A-5B is a flow chart of a method for ISR according to a fifthembodiment of the present invention;

FIG. 6A-6B is a flow chart of a method for ISR according to a sixthembodiment of the present invention;

FIG. 7A-7B is a flow chart of a method for ISR according to a seventhembodiment of the present invention;

FIG. 8A-8B is a flow chart of a method for ISR according to an eighthembodiment of the present invention;

FIG. 9A-9B is a flow chart of a method for ISR according to a ninthembodiment of the present invention;

FIG. 10 is a flow chart of a method for ISR according to a tenthembodiment of the present invention;

FIG. 11A-11B is a flow chart of a method for ISR according to aneleventh embodiment of the present invention;

FIG. 12 is a structural view of a first embodiment of a system for ISRaccording to the present invention; and

FIG. 13 is a structural view of a second embodiment of a system for ISRaccording to the present invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS

In the embodiments, the present invention provides a method and a systemfor ISR. To make the technical solutions of the present invention morecomprehensible, the present invention is described in detail withreference to the accompanying drawings and embodiments as follows.

FIG. 1 is a flow chart of a method for ISR according to a firstembodiment of the present invention. Referring to FIG. 1, in thisembodiment, when an ISR of a UE has been activated in a source network,it is supported to maintain the ISR activation status of the UE afterthe UE is handed over to a target network.

In a handover process before an RA or TA update process, when a mobilitymanagement network element of the target network sends a bearer updaterequest to a SGW of the target network, if the mobility managementnetwork element of the target network has an ISR capability, it includesinformation indicating the SGW to maintain the current ISR status of thesubscriber in the bearer update request message, and the SGW maintainsthe current ISR status of the subscriber according to the indicationinformation.

A specific ISR process in the RA or TA update procedure includes thefollowing steps.

In Step 101, the UE sends a TA or RA update request message to themobility management network element of the target network.

The TA or RA update request message sent by the UE may include ISRactivation information of a source network.

In this embodiment, the ISR activation information of the source networkmay be a temporary identity of the subscriber or ISR status indicationinformation.

In Step 102, the target network performs a security function relevantprocess according to configurations.

In Step 103, the mobility management network element of the targetnetwork obtains the ISR activation information of the source network.

The mobility management network element of the target network may obtainthe ISR activation information of the source network from the TA or RAupdate request message.

Alternatively, when the security process is performed, the mobilitymanagement network element of the target network interacts with that ofthe source network using the same access technology, so as to obtain theISR activation information of the source network while obtainingsecurity vectors.

In Step 104, the mobility management network element of the targetnetwork determines whether the UE has activated the ISR in the sourcenetwork; if yes, Step 105 is performed; otherwise, Step 109 isperformed.

The mobility management network element of the target network determineswhether the UE has activated the ISR in the source network in thefollowing modes.

Mode 1: The mobility management network element of the target networkdetermines whether the TA or RA update request message sent by the UE ora response message including the security vector sent by the mobilitymanagement network element of the source network includes the temporaryidentities assigned to the subscriber by networks based on differentaccess technologies; if yes, the mobility management network element ofthe target network determines that the UE has activated the ISR in thesource network; otherwise, the mobility management network element ofthe target network determines that the UE has not activated the ISR inthe source network.

The UE with the ISR activated includes both temporary identitiesassigned to the subscriber by the mobility management network elementsin two networks based on different access technologies in the requestmessage, or the mobility management network element of the sourcenetwork includes such both temporary identities in the response messageincluding the security vectors for being sent to the mobility managementnetwork element of the target network. For example, the temporaryidentities include an S-TMSI (assigned by an MME in an EPS network) anda P-TMSI (assigned by an SGSN in a 2G or 3G network), or a TAI (a TAidentity in the EPS network) and an RAI (an RA identity in the 2G or 3Gnetwork).

Mode 2: The mobility management network element of the target networkdetermines whether the TA or RA update request message sent by the UE ora response message including the security vectors sent by the mobilitymanagement network element of the source network includes the ISR statusindication information indicating that the ISR status has beenactivated; if yes, the mobility management network element of the targetnetwork determines that the UE has activated the ISR in the sourcenetwork; otherwise, the mobility management network element of thetarget network determines that the UE has not activated the ISR in thesource network.

In Step 105, the mobility management network element of the targetnetwork determines whether the mobility management network element ofthe target network has the ISR capability; if yes, Step 106 isperformed; otherwise, Step 108 is performed.

In Step 106, the mobility management network element of the targetnetwork activates an ISR of the UE in the target network, and themobility management network element of the target network interacts withthe mobility management network element of the source network andexchanges about the respective ISR status indication informationthereof.

Specifically, this step is described as follows.

1. The mobility management network element of the target network queriesa domain name server (DNS) according to the TA identity or RA identityin the request message of the subscriber, obtains an address of amobility management network element using a different access technologyin the source network, and sends a context request to the mobilitymanagement network element in the source network.

If the handover before the TA or RA update process is a handover betweendifferent access technologies, the target network can directly use theaddress of the mobility management network element of the source networkin the handover process. Alternatively, if the target network hasobtained the address of the mobility management network element using adifferent access technology in the source network during the handover,that is, the mobility management network element using the same accesstechnology in the source network includes such information in a forwardhandover request message sent to the mobility management network elementof the target network, the target network may also directly use theaddress of the mobility management network element using the differentaccess technology in the source network. Alternatively, when thesecurity process is performed, the mobility management network elementof the target network may interact with the mobility management networkelement using the same access technology in the source network to obtainthe address of the mobility management network element using thedifferent access technology at the source side along with the securityvectors, and the target network directly uses the address.

2. The mobility management network element using the different accesstechnology in the source network returns a context response message.

3. The mobility management network element of the target network returnsa context acknowledgement message to the mobility management networkelement using the different access technology in the source network, inwhich the context acknowledgement message includes indicationinformation indicating that the ISR of the UE in the target network hasbeen activated.

The interaction process described in Steps 1 to 3 above is only oneimplementation, and the interaction in other modes may also be used toachieve the same objective. In addition, when the mobility managementnetwork element using the different access technology in the sourcenetwork is not required to establish an association with the mobilitymanagement network element of the target network, Steps 1 to 3 may beomitted.

In Step 107, the mobility management network element of the targetnetwork determines whether the UE has successfully activated the ISR inthe target network; if yes, Step 109 is performed; otherwise, Step 108is performed.

In Step 108, the mobility management network element of the targetnetwork sends a bearer update request to the SGW, in which the bearerupdate request includes the ISR status indication information of the UEin the target network.

Specifically, the bearer update request sent by the mobility managementnetwork element of the target network may include the indicationinformation indicating the ISR status of the UE in the target network tothe SGW; alternatively, the bearer update request includes thecorresponding ISR activation indication information only when the ISRstatus of the UE in the target network is activated, and otherwise, therequest does not include the information. Thus, the SGW considers thatthe ISR status of the UE in the target network is activated only whenthe request includes the ISR activation indication information and theISR activation indication information indicates that the ISR status ofthe UE is activated.

In Step 109, the mobility management network element of the targetnetwork initiates a location update process, registers an addressthereof with a subscriber data management device, and obtainssubscription data of the subscriber.

In Step 110, the mobility management network element of the targetnetwork sends a TA or RA update accept message including the ISR statusindication information to the UE.

In Step 111, the UE returns a TA or RA update complete message to themobility management network element of the target network.

The RA update is applicable to the situation that the target network isthe 2G/3G network and the mobility management network element of thetarget network is the SGSN, and the TA update is applicable to thesituation that the target network is the LTE network and the mobilitymanagement network element of the target network is the MME.

FIG. 2 is a flow chart of a method for ISR according to a secondembodiment of the present invention. In this embodiment, if a sourcenetwork and a target network both have ISR capability, a UE can activatean ISR after being handed over to the target network no matter whetherthe UE has activated the ISR in the source network.

In a handover process before an RA or TA update process, when a mobilitymanagement network element of a target network sends a bearer updaterequest to an SGW of the target network, if the mobility managementnetwork element of the target network has the ISR capability, throughthe request message, the mobility management network element of thetarget network instructs the SGW not to deactivate the ISR that has beenactivated; in addition, when the ISR is not activated currently, thebearer context information of an access technology side using an accesstechnology different from the current access technology is notoverwritten, that is, if the bearer context information of differentaccess technologies exists, both bearer contexts of the two accesstechnologies are reserved at the same time.

A specific ISR process in the RA or TA update procedure includes thefollowing steps.

In Step 201, the UE sends a TA or RA update request message to themobility management network element of the target network.

In Step 202, the target network performs a security function relevantprocess according to configurations.

In Step 203, the mobility management network element of the targetnetwork determines whether it has an ISR capability; if yes, Step 204 isperformed; otherwise, Step 207 is performed.

In Step 204, the mobility management network element of the targetnetwork sends a context request message to a mobility management networkelement using a different access technology in a source network.

Before the mobility management network element of the target networksends the context request message to the mobility management networkelement using the different access technology in the source network, thefollowing process is further included.

The mobility management network element of the target network queries aDNS according to the TA identity or RA identity in the request messageof the subscriber, obtains an address of the mobility management networkelement using the different access technology in the source network, andsends a context request to the mobility management network element inthe source network.

If the handover before the TA or RA update process is a handover betweendifferent access technologies, the target network can directly use theaddress of the mobility management network element using the differentaccess technology in the source network during the handover process.Alternatively, if the target network has obtained the address of themobility management network element using the different accesstechnology in the source network during the handover, that is, themobility management network element using the same access technology inthe source network includes such information in a forward handoverrequest message sent to the mobility management network element of thetarget network, the target network may also directly use the address ofthe mobility management network element using the different accesstechnology in the source network. Alternatively, when the securityprocess is performed, the mobility management network element of thetarget network may interact with the mobility management network elementusing the same access technology in the source network to obtain theaddress of the mobility management network element using the differentaccess technology at the source side along with the security vectors,and the target network directly uses the address.

In Step 205, the mobility management network element using the differentaccess technology in the source network returns a context responsemessage including ISR capability information of the mobility managementnetwork element using the different access technology in the sourcenetwork.

In Step 206, the mobility management network element of the targetnetwork determines whether to activate the ISR of the UE in the targetnetwork according to the ISR capability of the source network.

The interaction described in Steps 204-206 is only one implementation,and the interaction in other modes may also be used to achieve the sameobjective.

In Step 207, the mobility management network element of the targetnetwork sends a bearer update request to the SGW, in which the bearerupdate request includes the ISR status indication information of the UEin the target network.

Specifically, the bearer update request sent by the mobility managementnetwork element of the target network may include the indicationinformation indicating the ISR status of the UE in the target network tothe SGW; alternatively, the bearer update request includes thecorresponding ISR activation indication information only when the ISRstatus of the UE in the target network is activated, and otherwise, therequest does not include the information. Thus, the SGW considers thatthe ISR status of the UE in the target network is activated only whenthe request includes the ISR activation indication information and theISR activation indication information indicates that the ISR status ofthe UE is activated.

In Step 208, the mobility management network element of the targetnetwork initiates a location update process, registers an addressthereof with a subscriber data management device, and obtainssubscription data of the subscriber.

In Step 209, the mobility management network element of the targetnetwork sends a TA or RA update accept message including the ISR statusindication information to the UE.

In Step 210, the UE returns a TA or RA update complete message to themobility management network element of the target network.

FIG. 3 is a flow chart of a method for ISR according to a thirdembodiment of the present invention. Referring to FIG. 3, in thisembodiment, a UE is handed over between networks using different 3GPPaccess technologies. Furthermore, in this embodiment, it is supported tomaintain an ISR activation status of the UE after the UE is handed overto a target network only when an ISR of the UE is activated in a sourcenetwork.

A specific ISR process in a handover procedure is described as follows.

In Step 301, a source network sends a handover request message to amobility management network element of the source network, and requeststo start a handover, in which the handover request message includes abearer context to be forwarded.

In Step 302, the mobility management network element of the sourcenetwork selects a mobility management network element of a targetnetwork, and sends a forward handover request message to the mobilitymanagement network element of the target network, in which the messageincludes ISR activation information of the source network.

In this embodiment, the ISR activation information of the source networkis indication information indicating that an ISR status of the UE isactivated in the source network.

In Step 303, the mobility management network element of the targetnetwork selects an SGW of the target network, and allocatescorresponding bearer resources and data forwarding resources to ahandover subscriber.

In Step 304, the mobility management network element of the targetnetwork obtains the ISR activation information of the source networkfrom the forward handover request message, and determines to activatethe ISR of the UE in the target network.

In Step 305, the mobility management network element of the targetnetwork returns a forwarding handover response message to the mobilitymanagement network element of the source network, in which theforwarding handover response message includes indication informationindicating that the ISR status of the UE in the target network isactivated.

In Step 306, the mobility management network element of the sourcenetwork commands the source network to start the handover.

In Step 307, the source access network notifies the UE to start thehandover.

In Step 308, the source access network starts to forward data to thetarget network.

In Step 309, the UE accesses the target access network successfully.

In Step 310, after confirming that the UE has accessed the target accessnetwork, the target access network sends a handover notification to themobility management network element of the target network.

In Step 311, the mobility management network element of the targetnetwork sends a forwarding handover complete message to the mobilitymanagement network element of the source network.

In Step 312, the mobility management network element of the sourcenetwork returns a forwarding handover complete acknowledgement messageto the mobility management network element of the target network.

In Step 313, the mobility management network element of the targetnetwork sends a bearer update request message to the SGW of the targetnetwork to update user plane bearer information, in which the bearerupdate request message includes indication information indicating thatthe ISR status is activated.

In Step 314, the SGW of the target network initiates a bearer updateprocess to update bearer information on a PDN GW, for example, an accessnetwork type of the subscriber.

In Step 315, the SGW of the target network returns a bearer updateresponse message to the mobility management network element of thetarget network.

In the RA or TA update process after the handover process, the mobilitymanagement network element of the target network includes indicationinformation indicating that the ISR status is activated in a TA or RAupdate accept response message delivered to the UE.

In this embodiment, the mobility management network element may be anMME or an SGSN.

FIG. 4 is a flow chart of a method for ISR according to a fourthembodiment of the present invention. Referring to FIG. 4, in thisembodiment, a UE is handed over between networks using different 3GPPaccess technologies. In this embodiment, if a source network and atarget network both have an ISR capability, it is supported that the UEcan activate an ISR after being handed over to the target network nomatter whether the UE has activated the ISR in the source network.

A specific ISR process in a handover procedure is described as follows.

In Step 401, the source network sends a handover request message to amobility management network element of the source network, and requeststo start a handover, in which the handover request message includes abearer context to be forwarded.

In Step 402, the mobility management network element of the sourcenetwork selects a mobility management network element of the targetnetwork, and sends a forward handover request message to the mobilitymanagement network element of the target network, in which the messageincludes ISR activation information of the source network.

In this embodiment, the ISR activation information of the source networkis indication information indicating that the UE has an ISR activationsupport capability in the source network.

In Step 403, the mobility management network element of the targetnetwork selects an SGW of the target network, and allocatescorresponding bearer resources and data forwarding resources to ahandover subscriber.

In Step 404, the mobility management network element of the targetnetwork obtains the ISR activation information of the source networkfrom the forward handover request message, and determines to activatethe ISR of the UE in the target network.

In Step 405, the mobility management network element of the targetnetwork returns a forwarding handover response message to the mobilitymanagement network element of the source network, in which theforwarding handover response message includes indication informationindicating that the ISR status of the UE in the target network isactivated.

In Step 406, the mobility management network element of the sourcenetwork commands the source network to start the handover.

In Step 407, the source access network notifies the UE to start thehandover.

In Step 408, the source access network starts to forward data to thetarget network.

In Step 409, the UE accesses the target access network successfully.

In Step 410, after confirming that the UE has accessed the target accessnetwork, the target access network sends a handover notification to themobility management network element of the target network.

In Step 411, the mobility management network element of the targetnetwork sends a forwarding handover complete message to the mobilitymanagement network element of the source network.

In Step 412, the mobility management network element of the sourcenetwork returns a forwarding handover complete acknowledgement messageto the mobility management network element of the target network.

In Step 413, the mobility management network element of the targetnetwork sends a bearer update request message to the SGW of the targetnetwork to update user plane bearer information, in which the bearerupdate request message includes indication information indicating thatthe ISR status is activated.

In Step 414, the SGW of the target network initiates a bearer updateprocess to update bearer information on a PDN GW, for example, an accessnetwork type of the subscriber.

In Step 415, the SGW of the target network returns a bearer updateresponse message to the mobility management network element of thetarget network.

In the RA or TA update process after the handover process, the mobilitymanagement network element of the target network includes indicationinformation indicating that the ISR status is activated in a TA or RAupdate accept response message delivered to the UE.

FIG. 5 is a flow chart of a method for ISR according to a fifthembodiment of the present invention. In this embodiment, the ISRmechanism does not require to establish an association between amobility management network element of a source network and a mobilitymanagement network element of a target network. Furthermore, in thisembodiment, it is supported to maintain an ISR activation status of a UEafter the UE is handed over to the target network when an ISR of the UEis activated in the source network.

A specific ISR process in a handover procedure is described as follows.

In Step 501, the source network sends a handover request message to amobility management network element of the source network, and requeststo start a handover, in which the handover request message includes abearer context to be forwarded.

In Step 502, the mobility management network element of the sourcenetwork selects a mobility management network element of the targetnetwork, and sends a forward handover request message to the mobilitymanagement network element of the target network.

In Step 503, the mobility management network element of the targetnetwork selects an SGW of the target network, and allocatescorresponding bearer resources and data forwarding resources to ahandover subscriber.

In Step 504, the mobility management network element of the targetnetwork returns a forwarding handover response message to the mobilitymanagement network element of the source network.

In Step 505, the mobility management network element of the sourcenetwork commands the source network to start the handover.

In Step 506, the source access network notifies the UE to start thehandover.

In Step 507, the source access network starts to forward data to thetarget network.

In Step 508, the UE accesses the target access network successfully.

In Step 509, after confirming that the UE has accessed the target accessnetwork, the target access network sends a handover notification to themobility management network element of the target network.

In Step 510, the mobility management network element of the targetnetwork sends a forwarding handover complete message to the mobilitymanagement network element of the source network.

In Step 511, the mobility management network element of the sourcenetwork returns a forwarding handover complete acknowledgement messageto the mobility management network element of the target network.

In Step 512, the mobility management network element of the targetnetwork sends a bearer update request message to the SGW of the targetnetwork to update user plane bearer information, in which the bearerupdate request message includes ISR capability information of themobility management network element of the target network.

In Step 513, the SGW of the target network initiates a bearer updateprocess to update bearer information on a PDN GW, for example, an accessnetwork type of the subscriber.

In Step 514, the SGW of the target network determines whether tomaintain the ISR activation status of the UE according to the ISRcapability of the mobility management network element of the targetnetwork, and returns a bearer update response message to the mobilitymanagement network element of the target network. If the ISR iscontinuously activated, the response message includes the ISR activationindication information.

In the RA or TA update process after the handover process, the mobilitymanagement network element of the target network includes the ISR statusindication information in a TA or RA update accept response messagedelivered to the UE.

FIG. 6 is a flow chart of a method for ISR according to a sixthembodiment of the present invention.

Referring to FIG. 6, a specific ISR process in a handover procedure isdescribed as follows.

In Step 601, a source network sends a handover request message to amobility management network element of the source network, and requeststo start a handover, in which the handover request message includes abearer context to be forwarded.

In Step 602, the mobility management network element of the sourcenetwork selects a mobility management network element of a targetnetwork, and sends a forward handover request message to the mobilitymanagement network element of the target network, in which the forwardhandover request message includes ISR activation information of thesource network.

In this embodiment, the ISR activation information of the source networkmay be indication information indicating that an ISR status of a UE inthe source network is activated.

In Step 603, the mobility management network element of the targetnetwork selects an SGW of the target network, and allocatescorresponding bearer resources and data forwarding resources to ahandover subscriber.

In Step 604, the mobility management network element of the targetnetwork obtains the ISR activation information of the source networkfrom the forward handover request message.

In Step 605, the mobility management network element of the targetnetwork returns a forwarding handover response message to the mobilitymanagement network element of the source network.

In Step 606, the mobility management network element of the sourcenetwork commands the source network to start the handover.

In Step 607, the source network notifies the UE to start the handover.

In Step 608, the source network starts to forward data to the targetnetwork.

In Step 609, the UE accesses the target network successfully.

In Step 610, after confirming that the UE has accessed the targetnetwork, the target network sends a handover notification to themobility management network element of the target network.

In Step 611, the mobility management network element of the targetnetwork sends a forwarding handover complete message to the mobilitymanagement network element of the source network.

In Step 612, the mobility management network element of the sourcenetwork returns a forwarding handover complete acknowledgement messageto the mobility management network element of the target network.

In Step 613, the mobility management network element of the targetnetwork sends a bearer update request message to the SGW of the targetnetwork to update user plane bearer information.

If the mobility management network element of the target networkdetermines to activate the ISR of the UE in the target network, thebearer update request message includes information indicating the SGW tomaintain the current ISR status of the subscriber, and the SGW maintainsthe current ISR status of the subscriber unchanged according to theindication information. Here, the indication may directly instruct theSGW to maintain the ISR status of the subscriber unchanged, or indicatethat the current update procedure is a handover procedure to indirectlyinstruct the SGW to maintain the ISR status of the subscriber unchanged.

In Step 614, the SGW of the target network initiates a bearer updateprocess to update bearer information on a PDN GW, for example, an accessnetwork type of the subscriber.

In Step 615, the SGW of the target network returns a bearer updateresponse message to the mobility management network element of thetarget network.

FIG. 7 is a flow chart of a method for ISR according to a seventhembodiment of the present invention.

Referring to FIG. 7, a specific ISR process in an RA or TA updateprocedure includes the following steps.

In Step 701, a UE sends a TA or RA update request message to a mobilitymanagement network element of a target network.

In Step 702, the target network performs a security function relevantprocess according to configurations.

In Step 703, the mobility management network element of the targetnetwork determines whether the UE has activated an ISR in a sourcenetwork; if yes, Step 704 is performed; otherwise, Step 708 isperformed.

In this embodiment, the mobility management network element of thetarget network determines whether the source network has activated theISR in the following way.

It is determined whether the source network has activated the ISR bydetermining whether a forward handover request message sent by amobility management network element of the source network includes ISRstatus indication information and whether the ISR status indicationinformation indicates that the ISR status is activated.

In Step 704, the mobility management network element of the targetnetwork determines whether the mobility management network element ofthe target network has an ISR capability; if yes, Step 705 is performed;otherwise, Step 708 is performed.

In Step 705, the mobility management network element of the targetnetwork activates an ISR of the UE in the target network, and themobility management network element of the target network interacts withthe mobility management network element of the source network andexchanges about the respective ISR status indication informationthereof.

Specifically, this step is described as follows.

1. The mobility management network element of the target network queriesa DNS according to the TA identity or RA identity in the request messageof the subscriber, obtains an address of a mobility management networkelement using a different access technology in the source network, andsends a context request to the mobility management network element inthe source network.

If the handover before the TA or RA update process is a handover betweendifferent access technologies, the target network can directly use theaddress of the mobility management network element of the source networkin the handover process. Alternatively, if the target network hasobtained the address of the mobility management network element usingthe different access technology in the source network during thehandover, that is, the mobility management network element using thesame access technology in the source network includes such informationin a forward handover request message sent to the mobility managementnetwork element of the target network, the target network may alsodirectly use the address of the mobility management network elementusing the different access technology in the source network.Alternatively, when the security process is performed, the mobilitymanagement network element of the target network may interact with themobility management network element using the same access technology inthe source network to obtain the address of the mobility managementnetwork element using the different access technology at the source sidealong with security vectors, and the target network directly uses theaddress.

2. The mobility management network element using the different accesstechnology in the source network returns a context response message.

3. The mobility management network element of the target network returnsa context acknowledgement message to the mobility management networkelement using the different access technology in the source network, inwhich the context acknowledgement message includes indicationinformation indicating that the ISR of the UE in the target network hasbeen activated.

The interaction process described in Steps 1 to 3 above is only oneimplementation, and the interaction in other modes may also be used toachieve the same objective. In addition, when the mobility managementnetwork element using the different access technology in the sourcenetwork is not required to establish an association with the mobilitymanagement network element of the target network, Steps 1 to 3 may beomitted.

In Step 706, the mobility management network element of the targetnetwork determines whether the UE has successfully activated the ISR inthe target network; if yes, Step 708 is performed; otherwise, Step 707is performed.

In Step 707, the mobility management network element of the targetnetwork sends a bearer update request to the SGW, in which the bearerupdate request includes the ISR status indication information of the UEin the target network.

Specifically, the bearer update request sent by the mobility managementnetwork element of the target network may include the indicationinformation indicating the ISR status of the UE in the target network tothe SGW; alternatively, the bearer update request includes thecorresponding ISR activation indication information only when the ISRstatus of the UE in the target network is activated, and otherwise, therequest does not include the information. Thus, the SGW considers thatthe ISR status of the UE in the target network is activated only whenthe request includes the ISR activation indication information and theISR activation indication information indicates that the ISR status ofthe UE is activated.

In Step 708, the mobility management network element of the targetnetwork initiates a location update process, registers an addressthereof with a subscriber data management device, and obtainssubscription data of the subscriber.

In Step 709, the mobility management network element of the targetnetwork sends a TA or RA update accept message including the ISR statusindication information to the UE.

In Step 710, the UE returns a TA or RA update complete message to themobility management network element of the target network.

The RA update is applicable to the situation that the target network isthe 2G/3G network and the mobility management network element of thetarget network is the SGSN, and the TA update is applicable to thesituation that the target network is the LTE network and the mobilitymanagement network element of the target network is the MME.

FIG. 8 is a flow chart of a method for ISR according to an eighthembodiment of the present invention. The eighth embodiment is similar tothe sixth embodiment described above, but uses a different way to obtainISR activation information of a source network in a handover process.

Referring to FIG. 8, a specific ISR process in a handover process isdescribed as follows.

In Step 801, a source network sends a handover request message to amobility management network element of the source network, and requeststo start a handover, in which the handover request message includes abearer context to be forwarded.

In Step 802, the mobility management network element of the sourcenetwork selects a mobility management network element of a targetnetwork, and sends a forward handover request message to the mobilitymanagement network element of the target network.

In Step 803, the mobility management network element of the targetnetwork selects an SGW of the target network, and allocatescorresponding bearer resources and data forwarding resources to ahandover subscriber.

In Step 804, the mobility management network element of the targetnetwork returns a forwarding handover response message to the mobilitymanagement network element of the source network.

In Step 805, the mobility management network element of the sourcenetwork commands the source network to start the handover.

In Step 806, the source access network notifies the UE to start thehandover.

In Step 807, the source access network starts to forward data to thetarget network.

In Step 808, the UE accesses the target access network successfully.

In Step 809, after confirming that the UE has accessed the target accessnetwork, the target access network sends a handover notification to themobility management network element of the target network.

In Step 810, the mobility management network element of the targetnetwork sends a forwarding handover complete message to the mobilitymanagement network element of the source network.

In Step 811, the mobility management network element of the sourcenetwork returns a forwarding handover complete acknowledgement messageto the mobility management network element of the target network.

In Step 812, the mobility management network element of the targetnetwork sends a bearer update request message to the SGW of the targetnetwork to update user plane bearer information.

If the mobility management network element of the target networksupports the ISR, the bearer update request message includes informationindicating the SGW to maintain the current ISR status of the subscriberor information indicating the SGW that the current process is a handoverprocess. The SGW returns a bearer update response message including ISRactivation information of the subscriber in the source network, andfurther maintains the current ISR status of the subscriber unchangedaccording to the indication.

In Step 813, the SGW of the target network initiates a bearer updateprocess to update bearer information on a PDN GW, for example, an accessnetwork type of the subscriber.

In Step 814, the SGW of the target network returns a bearer updateresponse message to the mobility management network element of thetarget network.

The RA or TA update process is the same as that described in the aboveembodiments, and will not be described again here. The only differencelies in that the mobility management network element of the targetnetwork determines whether the source network has activated the ISRaccording to the ISR activation information indication obtained from thesource network in Step 812 of the handover process.

FIG. 9 is a flow chart of a method for ISR according to a ninthembodiment of the present invention. Referring to FIG. 9, in a handoverprocess, a source network is not required to provide ISR activationinformation of a subscriber in the source network, and as long as atarget network supports the ISR, the target network can interact withthe source network to activate the ISR.

Referring to FIG. 9, a specific ISR process in a handover procedure isdescribed as follows.

In Step 901, a source network sends a handover request message to amobility management network element of the source network, and requeststo start a handover, in which the handover request message includes abearer context to be forwarded.

In Step 902, the mobility management network element of the sourcenetwork selects a mobility management network element of a targetnetwork, and sends a forward handover request message to the mobilitymanagement network element of the target network.

In Step 903, the mobility management network element of the targetnetwork selects an SGW of the target network, and allocatescorresponding bearer resources and data forwarding resources to ahandover subscriber.

In Step 904, the mobility management network element of the targetnetwork returns a forwarding handover response message to the mobilitymanagement network element of the source network.

In Step 905, the mobility management network element of the sourcenetwork commands the source network to start the handover.

In Step 906, the source access network notifies the UE to start thehandover.

In Step 907, the source access network starts to forward data to thetarget network.

In Step 908, the UE accesses the target access network successfully.

In Step 909, after confirming that the UE has accessed the target accessnetwork, the target access network sends a handover notification to themobility management network element of the target network.

In Step 910, the mobility management network element of the targetnetwork sends a forwarding handover complete message to the mobilitymanagement network element of the source network.

In Step 911, the mobility management network element of the sourcenetwork returns a forwarding handover complete acknowledgement messageto the mobility management network element of the target network.

In Step 912, the mobility management network element of the targetnetwork sends a bearer update request message to the SGW of the targetnetwork to update user plane bearer information.

If the mobility management network element of the target networksupports the ISR, the bearer update request message includes informationindicating the SGW to maintain the current ISR status of the subscriber,and the SGW maintains the current ISR status of the subscriber unchangedaccording to the indication information. (The indication may directlyinstruct the SGW to maintain the ISR status of the subscriber unchanged,or indicate that the current update process is a handover process toindirectly instruct the SGW to maintain the ISR status of the subscriberunchanged.)

In Step 913, the SGW of the target network initiates a bearer updateprocess to update bearer information on a PDN GW, for example, an accessnetwork type of the subscriber.

In Step 914, the SGW of the target network returns a bearer updateresponse message to the mobility management network element of thetarget network.

FIG. 10 is a flow chart of a method for ISR according to a tenthembodiment of the present invention. Referring to FIG. 10, in a handoverprocess, a source network is not required to provide ISR activationinformation of a subscriber in the source network, and as long as atarget network supports the ISR, the target network can interact withthe source network to activate the ISR.

Referring to FIG. 10, a specific ISR process in the RA or TA updateprocedure includes the following steps.

In Step 1001, a UE sends a TA or RA update request message to a mobilitymanagement network element of the target network.

In Step 1002, the target network performs a security function relevantprocess according to configurations.

In Step 1003, the mobility management network element of the targetnetwork determines whether the mobility management network element ofthe target network has an ISR capability; if yes, Step 1004 isperformed; otherwise, Step 1007 is performed.

In Step 1004, the mobility management network element of the targetnetwork activates an ISR of the UE in the target network, and themobility management network element of the target network interacts witha mobility management network element of the source network andexchanges about the respective ISR status indication informationthereof.

Specifically, this step is described as follows.

1. The mobility management network element of the target network queriesa DNS according to the TA identity or RA identity in the request messageof the subscriber, obtains an address of a mobility management networkelement using a different access technology in the source network, andsends a context request to the mobility management network element inthe source network.

If the handover before the TA or RA update process is a handover betweendifferent access technologies, the target network can directly use theaddress of the mobility management network element of the source networkin the handover process. Alternatively, if the target network hasobtained the address of the mobility management network element usingthe different access technology in the source network during thehandover, that is, the mobility management network element using thesame access technology in the source network includes such informationin a forward handover request message sent to the mobility managementnetwork element of the target network, the target network may alsodirectly use the address of the mobility management network elementusing the different access technology in the source network.Alternatively, when the security process is performed, the mobilitymanagement network element of the target network may interact with themobility management network element using the same access technology inthe source network to obtain the address of the mobility managementnetwork element using the different access technology at the source sidealong with the security vectors, and the target network directly usesthe address.

2. The mobility management network element using the different accesstechnology in the source network returns a context response message.

3. The mobility management network element of the target network returnsa context acknowledgement message to the mobility management networkelement using the different access technology in the source network, inwhich the context acknowledgement message includes indicationinformation indicating that the ISR of the UE in the target network hasbeen activated.

The interaction process described in Steps 1 to 3 above is only oneimplementation, and the interaction in other modes may also be used toachieve the same objective. In addition, when the mobility managementnetwork element using the different access technology in the sourcenetwork is not required to establish an association with the mobilitymanagement network element of the target network, Steps 1 to 3 may beomitted.

In Step 1005, the mobility management network element of the targetnetwork determines whether the UE has successfully activated the ISR inthe target network; if yes, Step 1007 is performed; otherwise, Step 1006is performed.

The manner for determining whether the UE has successfully activated theISR in the target network specifically includes, but not limited to, thefollowing manner.

In the interaction in Step 1004, if the mobility management networkelement of the source network returns indication information indicatingthat the source side supports the ISR or has activated the ISR, thetarget network determines that the ISR activation succeeds; otherwise,the target network determines that the ISR activation fails.

In Step 1006, the mobility management network element of the targetnetwork sends a bearer update request to the SGW, in which the bearerupdate request includes the ISR status indication information of the UEin the target network.

Specifically, the bearer update request sent by the mobility managementnetwork element of the target network may include the indicationinformation indicating the ISR status of the UE in the target network tothe SGW; alternatively, the request includes the corresponding ISRactivation indication information only when the ISR status of the UE inthe target network is activated, and otherwise, the request does notinclude the information. Thus, the SGW considers that the ISR status ofthe UE in the target network is activated only when the request includesthe ISR activation indication information and the ISR activationindication information indicates that the ISR status of the UE isactivated.

In Step 1007, the mobility management network element of the targetnetwork initiates a location update process, registers an addressthereof with a subscriber data management device, and obtainssubscription data of the subscriber.

In Step 1008, the mobility management network element of the targetnetwork sends a TA or RA update accept message including the ISR statusindication information to the U E.

In Step 1009, the UE returns a TA or RA update complete message to themobility management network element of the target network.

FIG. 11 is a flow chart of a method for ISR according to an eleventhembodiment of the present invention. In this embodiment, if a sourcenetwork and a target network both have an ISR capability, a UE canactivate an ISR after being handed over to the target network no matterwhether the UE has activated the ISR in the source network.

Referring to FIG. 11, a specific ISR process in an RA or TA updateprocess includes the following steps.

In Step 1101, the UE sends a TA or RA update request message to amobility management network element of the target network.

In Step 1102, the target network performs a security function relevantprocess according to configurations.

In Step 1103, the mobility management network element of the targetnetwork determines whether it has the ISR capability; if yes, Step 1104is performed; otherwise, Step 1108 is performed.

In Step 1104, the mobility management network element of the targetnetwork sends a context request message to a mobility management networkelement using a different access technology in the source network.

Before the mobility management network element of the target networksends the context request message to the mobility management networkelement using the different access technology in the source network, thefollowing process is further included.

The mobility management network element of the target network queries aDNS according to the TA identity or RA identity in the request messageof the subscriber, obtains an address of the mobility management networkelement using the different access technology in the source network, andsends a context request to the mobility management network element inthe source network.

If the handover before the TA or RA update process is a handover betweendifferent access technologies, the target network can directly use theaddress of the mobility management network element using the differentaccess technology in the source network during the handover process.Alternatively, if the target network has obtained the address of themobility management network element using the different accesstechnology in the source network during the handover, that is, themobility management network element using the same access technology inthe source network includes such information in a forward handoverrequest message sent to the mobility management network element of thetarget network, the target network may also directly use the address ofthe mobility management network element using the different accesstechnology in the source network. Alternatively, when the securityprocess is performed, the mobility management network element of thetarget network may interact with the mobility management network elementusing the same access technology in the source network to obtain theaddress of the mobility management network element using the differentaccess technology at the source side along with the security vectors,and the target network directly uses the address.

In Step 1105, the mobility management network element using thedifferent access technology in the source network interacts with the SGWto notify the SGW to establish the ISR, and returns a context responsemessage to the mobility management network element of the targetnetwork, in which the context response message includes an ISRactivation result or status information of the mobility managementnetwork element using the different access technology in the sourcenetwork; alternatively, the mobility management network element usingthe different access technology in the source network directly returns acontext response message to the mobility management network element ofthe target network, in which the context response message includesinformation about resources for ISR activation allocated by the sourcenetwork.

In Step 1106, the mobility management network element of the targetnetwork determines whether to activate the ISR of the UE in the targetnetwork according to the information included in the context responsemessage returned by the source network. For example, if the messageincludes the information indicating that the ISR activation of thesource network succeeds, or includes information about the resources forthe ISR activation allocated by the source network, the mobilitymanagement network element of the target network determines to activatethe ISR; otherwise, the mobility management network element of thetarget network determines not to activate the ISR.

The interaction described in Steps 1104 to 1106 is only oneimplementation, and the interaction in other modes may also be used toachieve the same objective.

In Step 1107, the mobility management network element of the targetnetwork sends a bearer update request to the SGW, in which the bearerupdate request includes the ISR status indication information of the UEin the target network. Specifically, the bearer update request sent bythe mobility management network element of the target network mayinclude the indication information indicating the ISR status of the UEin the target network to the SGW; alternatively, the bearer updaterequest includes the corresponding ISR activation indication informationonly when the ISR status of the UE in the target network is activated,and otherwise, the request does not include the information. Thus, theSGW considers that the ISR status of the UE in the target network isactivated only when the message includes the ISR activation indicationinformation and the ISR activation indication information indicates thatthe ISR status of the UE is activated.

If the source network returns the information about the resources forthe ISR activation allocated by the source network in Step 1105, thebearer update request includes the information.

In Step 1108, the mobility management network element of the targetnetwork initiates a location update process, registers an addressthereof with a subscriber data management device, and obtainssubscription data of the subscriber.

In Step 1109, the mobility management network element of the targetnetwork sends a TA or RA update accept message including the ISR statusindication information to the UE.

In Step 1110, the UE returns a TA or RA update complete message to themobility management network element of the target network.

FIG. 12 is a structural view of a first embodiment of a system for ISRaccording to the present invention.

The system for ISR includes a mobility management network element 61 ofa target network, a SGW 62 of the target network, a UE 63, and amobility management network element 64 of a source network.

The UE 63 is configured to send a TA update request message or RA updaterequest message including ISR activation information of the sourcenetwork to the mobility management network element 61 of the targetnetwork.

The mobility management network element 61 of the target network isconfigured to obtain the ISR activation information of the sourcenetwork from the UE 63, set an ISR status of the UE in the targetnetwork according to the obtained ISR activation information of thesource network, and notify the set ISR status of the UE in the targetnetwork to the SGW 62 of the target network.

The mobility management network element may further include an obtainingunit 611 and a setting unit 612.

The obtaining unit 611 is configured to obtain the ISR activationinformation of the source network.

The obtaining unit may further include a UE obtaining unit.

The UE obtaining unit is configured to obtain the ISR activationinformation of the source network from the TA update request message orRA update request message sent by the UE.

The setting unit 612 is configured to set the ISR status of the UE inthe target network according to the ISR activation information of thesource network obtained by the obtaining unit 611, and notify the setISR status of the UE in the target network to the SGW 62 of the targetnetwork.

The setting unit may further include a determining unit, an activatingunit, and a notifying unit.

The determining unit is configured to determine whether the UE hasactivated the ISR in the source network and whether the mobilitymanagement network element has an ISR capability according to the ISRactivation information of the source network obtained by the obtainingunit.

The activating unit is configured to activate the ISR of the UE in thetarget network when the determining unit determines that the UE hasactivated the ISR in the source network and the mobility managementnetwork element has the ISR capability.

The notifying unit is configured to notify an ISR status of the UE inthe target network set by the activating unit to the SGW of the targetnetwork and/or the mobility management network element of the sourcenetwork and/or the UE.

The setting unit may further include an indication message sending unit.

The indication message sending unit is configured to send a bearerupdate request message to the SGW of the target network if the mobilitymanagement network element of the target network has the ISR capabilityor determines to activate the ISR of the UE in the target network, inwhich the bearer update request message includes information indicatingthe SGW of the target network to maintain the current ISR status of asubscriber or information indicating that a current update process is ahandover process.

The SGW 62 of the target network is configured to record the ISR statusof the UE in the target network set by the mobility management networkelement 61 of the target network.

The mobility management network element 64 of the source network isconfigured to interact with the mobility management network element ofthe target network and exchange about the respective ISR statusindication information thereof.

FIG. 13 is a structural view of a second embodiment of a system for ISRaccording to the present invention.

The system for ISR includes a mobility management network element 71 ofa target network, a SGW 72 of the target network, and a mobilitymanagement network element 73 of a source network.

The mobility management network element 73 of the source network isconfigured to provide ISR activation information of the source networkto the mobility management network element 71 of the target network.

The mobility management network element 71 of the target network isconfigured to obtain the ISR activation information of the sourcenetwork from the mobility management network element 73 of the sourcenetwork, set an ISR status of a UE in the target network according tothe obtained ISR activation information of the source network, andnotify the set ISR status of the UE in the target network to the SGW 72of the target network and/or the mobility management network element ofthe source network and/or the UE.

The mobility management network element may further include an obtainingunit 711 and a setting unit 712.

The obtaining unit 711 is configured to obtain the ISR activationinformation of the source network.

The obtaining unit may further include a source network obtaining unit.

The source network obtaining unit is configured to obtain the ISRactivation information of the source network from the source network.

The setting unit 712 is configured to set the ISR status of the UE inthe target network according to the ISR activation information of thesource network obtained by the obtaining unit 711, and notify the setISR status of the UE in the target network to the SGW 72 of the targetnetwork and/or the mobility management network element 73 of the sourcenetwork and/or the UE.

The setting unit may further include a determining unit, an activatingunit, and a notifying unit.

The determining unit is configured to determine whether the sourcenetwork has an ISR capability according to the ISR activationinformation of the source network obtained by the obtaining unit.

The activating unit is configured to activate the ISR of the UE in thetarget network when the determining unit determines that the sourcenetwork has the ISR capability.

The notifying unit is configured to notify an ISR status of the UE inthe target network set by the activating unit to the SGW of the targetnetwork and/or the mobility management network element of the sourcenetwork and/or the UE.

The setting unit may further include an indication message sending unit.

The indication message sending unit is configured to send a bearerupdate request message to the SGW of the target network if the mobilitymanagement network element of the target network has the ISR capabilityor determines to activate the ISR of the UE in the target network, inwhich the bearer update request message includes information indicatingthe SGW of the target network to maintain the current ISR status of asubscriber or information indicating that a current update process is ahandover process.

The SGW 72 of the target network is configured to record the ISR statusof the UE in the target network set by the mobility management networkelement 71 of the target network.

In addition, in an embodiment, the present invention further provides amobility management network element, which includes a determining unit,an activating unit, and a notifying unit.

The determining unit is configured to determine whether the mobilitymanagement network element of a target network has an ISR capability.

The activating unit is configured to activate an ISR of a UE in thetarget network when the determining unit determines that the mobilitymanagement network element of the target network has the ISR capability.

The notifying unit is configured to notify an ISR activation status orresult of the UE in the target network to a mobility management networkelement of a source network.

The mobility management network element may further include anindication message sending unit.

The indication message sending unit is configured to send a bearerupdate request message to an SGW of the target network if the mobilitymanagement network element of the target network has the ISR capabilityor determines to activate the ISR of the UE in the target network, inwhich the bearer update request message includes information indicatingthe SGW of the target network to maintain the current ISR status of asubscriber or information indicating that a current update process is ahandover process.

In addition, in an embodiment, the present invention further provides amobility management network element, which includes a determining unitand an activating unit.

The determining unit is configured to determine whether to activate anISR of a UE in a target network according to an ISR capability or an ISRactivation status of a source network when the mobility managementnetwork element of the target network has the ISR capability.

The activating unit is configured to activate the ISR of the UE in thetarget network when the determining unit determines that the sourcenetwork has the ISR capability or has activated the ISR.

The mobility management network element may further include anindication message sending unit.

The indication message sending unit is configured to send a bearerupdate request message to an SGW of the target network if the mobilitymanagement network element of the target network has the ISR capabilityor determines to activate the ISR of the UE in the target network, inwhich the bearer update request message includes information indicatingthe SGW of the target network to maintain the current ISR status of asubscriber or information indicating that a current update process is ahandover process.

The mobility management network element may further include a notifyingunit.

The notifying unit is configured to notify an ISR status of the UE inthe target network set by the activating unit to the SGW of the targetnetwork and/or the mobility management network element of the sourcenetwork and/or the UE.

In an embodiment, the present invention further provides a system forISR. The system includes a mobility management network element of atarget network and an SGW of the target network.

The mobility management network element of the target network isconfigured to provide an ISR capability of the mobility managementnetwork element of the target network.

The SGW of the target network is configured to control the mobilitymanagement network element of the target network to set an ISR status ofa UE in the target network according to the ISR capability of themobility management network element of the target network provided bythe mobility management network element of the target network.

The SGW of the target network obtains the ISR capability of the mobilitymanagement network element of the target network from the user planebearer update information sent by the mobility management networkelement of the target network

Through the method for ISR and the system for ISR according to theembodiments of the present invention, the ISR status of the UE in thetarget network can be set according to the ISR activation information ofthe source network or the ISR capability of the mobility managementnetwork element of the target network. Thus, when the UE is handed overbetween networks, the ISR status of the UE can be processed.

A method for ISR and a system for ISR of the present invention aredescribed in detail above. The specific examples provided in thespecification are used to illustrate the principles and implementationof the present invention. The description about the embodiments of thepresent invention is helpful for understanding the technical solutionsof the present invention. Persons of ordinary skill in the art can makevariations and modifications to the present invention in terms of thespecific implementations and application scopes according to the ideasof the present invention. Therefore, the specification shall not beconstrued as limitations to the present invention.

1. A method for idle mode signaling reduction (ISR), comprising:obtaining ISR activation information of a source network from a forwardhandover request message sent by a mobility management network elementof the source network; and setting an ISR status of a user equipment(UE) in a target network according to the obtained ISR activationinformation of the source network.
 2. The method according to claim 1,further comprising: sending a bearer update request message to a servinggateway (SGW) of the target network, wherein the bearer update requestmessage includes information indicating the SGW of the target network tomaintain a current ISR status of a subscriber.
 3. The method accordingto claim 2, further comprising: including information in the bearerupdate request message to instruct the SGW of the target network tomaintain the activated ISR status, and to reserve bearer information ofa source network side and a target network side when the ISR is notactivated.
 4. The method according to claim 1, wherein the setting theISR status of the UE in the target network according to the obtained ISRactivation information of the source network comprises: if a mobilitymanagement network element of the target network has an ISR capability,determining whether to activate the ISR of the UE in the target networkaccording to the obtained ISR capability of the source network, and ifyes, activating the ISR of the UE in the target network.
 5. The methodaccording to claim 1, wherein the setting the ISR status of the UE inthe target network according to the obtained ISR activation informationof the source network comprises: determining, by a mobility managementnetwork element of the target network, whether the UE has activated theISR in the source network, and if yes, determining whether the mobilitymanagement network element of the target network has an ISR capability,and if yes, activating the ISR of the UE in the target network.
 6. Themethod according to claim 1, wherein the ISR activation information ofthe source network is indication information indicating that the ISRstatus of the UE in the source network is activated, and the setting theISR status of the UE in the target network comprises: activating the ISRof the UE in the target network.
 7. The method according to claim 1,wherein the ISR activation information of the source network isindication information indicating that the source network has an ISRcapability, and the setting the ISR status of the UE in the targetnetwork comprises: activating the ISR of the UE in the target network.8. The method according to claim 1, further comprising: notifying theISR status of the UE in the target network to an SGW of the targetnetwork.
 9. The method for ISR according to claim 1, further comprising:notifying the ISR status of the UE in the target network to the UE. 10.The method according to claim 1, further comprising: sending, by amobility management network element of the target network, a bearerupdate request message to an SGW of the target network if the mobilitymanagement network element of the target network has an ISR capabilityor determines to activate the ISR of the UE in the target network,wherein the bearer update request message includes indicationinformation indicating the SGW of the target network to maintain thecurrent ISR status of a subscriber or indication information indicatingthat a current update process is a handover process; and maintaining, bythe SGW of the target network, the current ISR status of the subscriberunchanged according to the indication information.
 11. The methodaccording to claim 4, further comprising: notifying, by the mobilitymanagement network element of the target network, an ISR activationstatus or result of the UE in the target network to the mobilitymanagement network element of the source network.
 12. A method for idlemode signaling reduction (ISR), comprising: determining whether toactivate an ISR of a user equipment (UE) in a target network accordingto an ISR capability or an ISR activation status of a source network ifa mobility management network element of the target network has an ISRcapability, and activating the ISR of the UE in the target network ifthe source network supports the ISR or has activated the ISR.
 13. Themethod according to claim 12, wherein the method further comprises:obtaining the ISR capability or the ISR activation status of the sourcenetwork, and wherein the obtaining the ISR capability or the ISRactivation status of the source network comprises: sending a request toa mobility management network element using a different accesstechnology in the source network, and returning, by the mobilitymanagement network element using the different access technology in thesource network, a response message, wherein the response messageincludes information about the ISR capability or the ISR activationstatus of the source network.
 14. The method according to claim 12,further comprising: sending, by the mobility management network elementof the target network, a bearer update request message to a servinggateway (SGW) of the target network if the mobility management networkelement of the target network supports the ISR, wherein the bearerupdate request message includes indication information indicating theSGW of the target network to maintain a current ISR status of asubscriber or indication information indicating that a current updateprocess is a handover process; and maintaining, by the SGW of the targetnetwork, the current ISR status of the subscriber unchanged according tothe indication information.
 15. The method for ISR according to claim12, further comprising: notifying, by the mobility management networkelement of the target network, the ISR status of the UE in the targetnetwork to a mobility management network element of the source networkand/or the SGW of the target network and/or the UE.
 16. A system foridle mode signaling reduction (ISR), comprising: a mobility managementnetwork element of a target network, configured to obtain ISR activationinformation of a source network from a forward handover request messagesent by a mobility management network element of the source network, andset an ISR status of a user equipment (UE) in the target networkaccording to the obtained ISR activation information of the sourcenetwork; and a serving gateway (SGW) of the target network, configuredto record the ISR status of the UE in the target network set by themobility management network element of the target network.
 17. Thesystem for ISR according to claim 16, further comprising: a mobilitymanagement network element of the source network, configured to providethe ISR activation information of the source network to the mobilitymanagement network element of the target network.
 18. A computer programproduct for providing mobility, the computer program product having anon-transitory computer readable medium with a computer program embodiedthereon, the computer program comprising: computer program code forobtaining idle mode signaling reduction (ISR) activation information ofa source network from a forward handover request message sent by amobility management network element of the source network; and computerprogram code for setting an ISR status of a user equipment (UE) in atarget network according to the ISR activation information of the sourcenetwork obtained by the computer program code for obtaining.
 19. Thecomputer program product according to claim 18, wherein the computerprogram code for setting comprises: computer program code fordetermining whether the UE has activated the ISR in the source networkaccording to the ISR activation information of the source networkobtained by the computer program code for obtaining and whether themobility management network element has an ISR capability; computerprogram code for activating the ISR of the UE in the target network whenthe computer program code for determining determines that the UE hasactivated the ISR in the source network and the mobility managementnetwork element has the ISR capability; and computer program code fornotifying an ISR status of the UE in the target network set by thecomputer program code for activating to a serving gateway (SGW) of thetarget network and/or a mobility management network element of thesource network and/or the UE.
 20. The computer program product accordingto claim 18, wherein the computer program code for setting comprises:computer program code for determining whether the source network has anISR capability according to the ISR activation information of the sourcenetwork obtained by the computer program code for obtaining; computerprogram code for activating the ISR of the UE in the target network whenthe computer program code for determining determines that the sourcenetwork has the ISR capability; and computer program code for notifyingan ISR status of the UE in the target network set by the computerprogram code for activating to a serving gateway (SGW) of the targetnetwork and/or a mobility management network element of the sourcenetwork and/or the UE.
 21. The computer program product according toclaim 19, wherein the computer program code for setting furthercomprises: computer program code for sending a bearer update requestmessage to the SGW of the target network if the mobility managementnetwork element of the target network has an ISR capability ordetermines to activate the ISR of the UE in the target network, whereinthe bearer update request message includes information indicating theSGW of the target network to maintain a current ISR status of asubscriber or information indicating that a current update process is ahandover process.
 22. The computer program product according to claim20, wherein the computer program code for setting further comprises:computer program code for sending a bearer update request message to theSGW of the target network if the mobility management network element ofthe target network has an ISR capability or determines to activate theISR of the UE in the target network, wherein the bearer update requestmessage includes information indicating the SGW of the target network tomaintain a current ISR status of a subscriber or information indicatingthat a current update process is a handover process.
 23. The computerprogram product according to claim 18, wherein the mobility managementnetwork element is a mobility management entity (MME) or a servinggeneral packet radio service support node (SGSN).
 24. A computer programproduct for providing mobility, the computer program product having anon-transitory computer readable medium with a computer program embodiedthereon, the computer program comprising: computer program code fordetermining whether to activate an idle mode signaling reduction (ISR)of a user equipment (UE) in a target network according to an ISRcapability or an ISR activation status of a source network when amobility management network element of the target network has an ISRcapability; and computer program code for activating the ISR of the UEin the target network when the computer program code for determiningdetermines that the source network has the ISR capability or hasactivated the ISR.
 25. The computer program product according to claim24, further comprising: computer program code for sending a bearerupdate request message to a serving gateway (SGW) of the target networkif the mobility management network element of the target network has theISR capability or determines to activate the ISR of the UE in the targetnetwork, wherein the bearer update request message includes informationindicating the SGW of the target network to maintain a current ISRstatus of a subscriber or information indicating that a current updateprocess is a handover process.
 26. The computer program productaccording to claim 24, further comprising: computer program code fornotifying an ISR status of the UE in the target network set by thecomputer program code for activating to a serving gateway (SGW) of thetarget network and/or a mobility management network element of thesource network and/or the UE.